Research on the optimization of electrochemical behavior model in the environment of novel composite fuel cell

Composite materials have been widely studied due to their good mechanical, electrical and chemical properties, especially atomic structure fuel cells with large specific surface area, high electrical conductivity and good compatibility of composite materials. These new composite materials have many excellent physical and chemical properties, and are widely used in many fields, especially in the field of electrochemistry, showing their unique advantages. Composite materials play an important role in the electrocatalytic reaction of composite materials due to their high specific surface area and good compatibility of composite materials. The construction based on composite materials has high sensitivity, wide linear range, good repeatability and stability. As a catalyst in a fuel cell, the composite material can improve the energy density and fuel utilization rate of the fuel cell, which is a high-performance fuel cell.